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Designing Wake‐Up Free Ferroelectric Capacitors Based on the HfO<sub>2</sub>/ZrO<sub>2</sub> Superlattice Structure

Na Bai, Kan‐Hao Xue, Jinhai Huang, Jun‐Hui Yuan, Wenlin Wang, Ge‐Qi Mao, Lanqing Zou, Shengxin Yang, Hong-Liang Lü, Huajun Sun, Xiangshui Miao

2022Advanced Electronic Materials35 citationsDOIOpen Access PDF

Abstract

Abstract The wake‐up phenomenon widely exists in hafnia‐based ferroelectric capacitors, which causes device parameter variation over time. Crystallization at a higher temperature has been reported to be effective in eliminating wake‐up, but high temperature may yield the monoclinic phase or generate more oxygen vacancies. In this work, a unidirectional annealing method is proposed for the crystallization of Hf 0.5 Zr 0.5 O 2 (HZO) superlattice ferroelectrics, which involves heating from the Pt/ZrO 2 interface side. It is demonstrated that 600 °C annealing only leads to a moderate content of monoclinic phase in HZO, and the TiN/HZO/Pt capacitor exhibits wake‐up free nature and a switchable remnant polarization value of 27.4 µC cm −2 . On the other hand, heating from the TiN/HfO 2 side, or using 500 °C annealing temperature, could yield ferroelectric devices that require a wake‐up process. The special configuration of Pt/ZrO 2 is verified by comparative studies with several other superlattice structures and HZO solid‐state solutions. It is discovered that heating from the Pt/HfO 2 side at 600 °C leads to high leakage current and a memristor behavior. The mechanisms of ferroelectric phase stabilization and memristor formation have been discussed. The unidirectional heating method can also be useful for other hafnia‐based ferroelectric devices.

Topics & Concepts

FerroelectricityMaterials scienceAnnealing (glass)SuperlatticeMonoclinic crystal systemHafniaCapacitorTinCrystallizationOptoelectronicsAnalytical Chemistry (journal)CrystallographyChemical engineeringDielectricComposite materialElectrical engineeringCrystal structureCeramicVoltageMetallurgyCubic zirconiaChemistryEngineeringChromatographyFerroelectric and Negative Capacitance DevicesAdvanced Memory and Neural ComputingMXene and MAX Phase Materials
Designing Wake‐Up Free Ferroelectric Capacitors Based on the HfO<sub>2</sub>/ZrO<sub>2</sub> Superlattice Structure | Litcius